摘 要
本文深入探讨了CAD技术在机械设计中的应用现状及其存在的主要问题,并对优化策略进行了系统研究。首先概述了CAD技术的定义、特点及其发展历程,明确了其在现代机械设计中的关键作用。接着,详细分析了CAD技术的核心功能,包括二维绘图、三维建模和仿真分析等。然而,在实际应用中,CAD技术面临高级功能利用率低、性能需求不匹配、技术更新滞后及设计与制造协同不足等问题。针对这些问题,本文提出了设立高级功能应用奖励、升级硬件配置、推广标准化数据格式以及制定统一数据标准等优化策略。这些策略旨在提升CAD技术在机械设计中的效率和精度,促进设计与制造环节的紧密协同,为机械设计行业的持续发展和创新提供有力支持。通过本研究,为CAD技术在机械设计中的高效应用提供了理论依据和实践指导。
关键词:CAD技术;机械设计;优化对策
Abstract
This paper deeply discusses the application status of CAD technology in mechanical design and its main problems, and systematically studies the optimization strategy. It first summarizes the definition, characteristics and development process of CAD technology and defines its key role in modern mechanical design. Then, the core functions of CAD technology are analyzed in detail, including 2 D drawing, 3 D modeling and simulation analysis. However, in practical application, CAD technology is faced with problems such as low utilization of advanced functions, unmatched performance requirements, lagging technology update and insufficient collaboration between design and manufacturing. In view of these problems, this paper puts forward the optimization strategies such as setting up advanced function application reward, upgrading hardware configuration, promoting standardized data format and formulating unified data standards. These strategies aim to improve the efficiency and precision of CAD technology in mechanical design, promote the close coordination between design and manufacturing links, and provide strong support for the sustainable development and innovation of the mechanical design industry. Through this study, it provides the theoretical basis and practical guidance for the efficient application of CAD technology in mechanical design.
Key words: CAD technology; mechanical design; optimization countermeasures
目 录
中文摘要 I
英文摘要 II
目 录 III
引 言 1
第1章、CAD技术相关概述 2
1.1、CAD技术的定义 2
1.2、CAD技术的特点 2
1.3、CAD技术的发展历程 3
第2章、CAD技术的核心功能 4
2.1、二维绘图 4
2.2、三维建模 4
2.3、仿真分析 4
第3章、CAD在机械设计中实施的主要问题 6
3.1、高级功能利用率低 6
3.2、性能需求不匹配 6
3.3、技术更新滞后 6
3.4、设计与制造的协同不足 7
第4章、优化CAD在机械设计中的应用策略 8
4.1、设立高级功能应用奖励 8
4.2、升级硬件配置 8
4.3、推广标准化数据格式 8
4.4、制定统一的数据标准 9
结 论 10
参考文献 11